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Zootaxa 3861 (6): 501 530 www.mapress.com/zootaxa/ Copyright 2014 Magnolia Press Article http://dx.doi.org/10.11646/zootaxa.3861.6.1 http://zoobank.org/urn:lsid:zoobank.org:pub:60747583-df72-45c4-ae53-662c1ce2429c ISSN 1175-5326 (print edition) ZOOTAXA ISSN 1175-5334 (online edition) Two new species of Gaeolaelaps (Acari: Mesostigmata: Laelapidae) from Iran, with a revised generic concept and notes on significant morphological characters in the genus SHAHROOZ KAZEMI 1, ASMA RAJAEI 2 & FRÉDÉRIC BEAULIEU 3 1 Department of Biodiversity, Institute of Science and High Technology and Environmental Sciences, Graduate University of Advanced Technology, Kerman, Iran. E-mail: shahroozkazemi@yahoo.com 2 Department of Plant Protection, College of Agriculture, University of Agricultural Sciences and Natural Resources, Gorgan, Iran. E-mail: asma_rajaei@yahoo.com 3 Canadian National Collection of Insects, Arachnids and Nematodes, Agriculture and Agri-Food Canada, 960 Carling avenue, Ottawa, ON K1A 0C6, Canada. E-mail: frederic.beaulieu@agr.gc.ca Abstract Two new species of laelapid mites of the genus Gaeolaelaps Evans & Till are described based on adult females collected from soil and litter in Kerman Province, southeastern Iran, and Mazandaran Province, northern Iran. Gaeolaelaps jondishapouri Nemati & Kavianpour is redescribed based on the holotype and additional specimens collected in southeastern Iran. The concept of the genus is revised to incorporate some atypical characters of recently described species. Finally, some morphological attributes with potential to define natural species groupings as well as hypoaspidine genera are discussed, particularly idiosomal gland pores and poroids. Key words: Soil mites, Parasitiformes, Iran, gland pores, poroids Introduction At present, Laelapidae is the most morphologically and ecologically diverse family of mesostigmatic mites, including obligate and facultative ectoparasites of mammals, soil-dwelling predators, and arthropod symbionts, for many of which the feeding biology is unknown (Evans & Till, 1966; Klimov & OConnor, 2004; Beaulieu, 2009; Lindquist et al., 2009). Since its erection by Berlese (1892), the family has increased dramatically in size with currently ca. 90 known genera and over 1300 known species (Beaulieu et al., 2011), and has benefited from several studies that variously tackled its classification (e.g. Berlese, 1903, 1916; Vitzthum, 1940 1943; Evans, 1957; Tipton, 1960; Karg, 1965, 1979; Evans & Till, 1966, 1979; Casanueva, 1993; Radovsky & Gettinger, 1999; Dowling & OConnor, 2010). However, it remains quite unstable overall, with the family being possibly paraphyletic or polyphyletic (Dowling & OConnor, 2010) and many of its inclusive subfamilies and genera have uncertain, tentatively defined boundaries. Radovsky & Gettinger (1999) and Shaw (2012) commented on the difficulty of placing genera in appropriate subfamilies. This incomplete understanding of the family is the result of a dearth of comprehensive systematic studies, as well as the large number of undescribed species from all over the world (Evans & Till, 1966). The limited quality of species descriptions, which often largely ignore key characters such as leg chaetotaxy and gnathosomal attributes, is also a strong impediment to systematic progress, including the elucidation of both taxonomic relationships and species delineation. Gaeolaelaps, or Hypoaspis (Gaeolaelaps), is poorly known worldwide, except possibly in some parts of Europe (e.g. Karg, 1993). Gaeolaelaps species are typically known from soil and litter, living as opportunistic predators of small invertebrates. The type species of the genus Gaeolaelaps aculeifer (G. Canestrini) is well known as a predator, and its voracity has been exploited in the biological control of crop pests (Prischmann- Voldseth & Dashiell, 2013). Gaeolaelaps gillespiei Beaulieu is another species used in greenhouses, mostly for the control of fungus gnats and thrips (Gillespie & Quiring, 1990; Beaulieu, 2009). On the other hand, an increasing Accepted by B. Halliday: 11 Aug. 2014; published: 18 Sept. 2014 501

series of studies show that many Gaeolaelaps-like species live in symbiosis with insects and other arthropods inhabiting soil or logs, such as millipedes and mygalomorph spiders (e.g. Strong, 1995; Faraji & Halliday, 2009; Trach, 2012; Kazemi, personal observations). The relationships between these symbiotic mites with their hosts is overall little understood, and in some cases may represent relatively intimate, at least phoretic, associations, considering their abundance in the host s nests, and the degree of host specificity (Strong & Halliday, 1994; Walter & Moser, 2010). Their feeding habits are also poorly known, but based on the strong chelate-dentate chelicerae of these species, horn-like corniculi, and their broad deutosternum, associated with well-developed laciniae, parasitism (at least in an obligate form) can probably be ruled out and predation of small invertebrates in the nests of their arthropod hosts is more likely (Evans & Till, 1965, 1966; Walter & Moser, 2010). It is often difficult to classify these arthropod-associated Gaeolaelaps-like species with confidence because they show conspicuous differences from typical Gaeolaelaps, exemplified by free-living species such as G. aculeifer (this basal plan largely corresponds to the basic dermanyssid type of Evans & Till, 1966). For example, the new species described by Faraji & Halliday (2009), Walter & Moser (2012), and Trach (2012) from cockroaches, fire ants, and carabid beetles respectively, all exhibit more or less unique departures from typical Gaeolaelaps species (see notes below), which force us, at least provisionally, to adjust the genus concept to accommodate these new species. In Iran, 16 species have been reported so far, five of which were described from Iran as new for science (Kazemi & Rajaei, 2013; Nemati & Kavianpour, 2013; Nemati & Mohseni, 2013; Kavianpour et al., 2013; Joharchi & Babaeian, 2014; Kavianpour & Nemati, 2014). One of these five species, G. jondishapouri Nemati & Kavianpour, 2013, was described from soil and litter taken from Ahvaz region, Khuzestan Province. We have recently collected several specimens of a similar species from soil, litter and cow manure in Kerman Province in southeastern Iran. Comparison of these specimens with the holotype female of G. jondishapouri clearly indicated their conspecificity. However, despite their high quality description, we found several discrepancies between Nemati & Kavianpour's original description and the specimens we examined, including the holotype. To address this, we herein redescribe the female of G. jondishapouri based on the holotype and additional specimens, and provide a revised species diagnosis of the species. We also describe two new species of Gaeolaelaps that were collected from soil and litter in northern (Mazandaran Province) and southeastern Iran (Kerman Province), and revise the diagnosis of the genus by mentioning some additional exceptional characters to facilitate further revisions. We conclude with a discussion on characters that may help define natural species groups and, perhaps, clarify boundaries between genera. Material and methods Mites were extracted from soil, litter and manure samples collected in Baft and Jiroft regions, Kerman Province, southeastern Iran, and Tirom-Rud region, Mazandaran Province, northern Iran, using Berlese-Tullgren funnels. Specimens were cleared in lactic acid and then mounted in Hoyer s medium on microscope slides before examination. Morphological observations, measurements and illustrations were made using compound microscopes equipped with differential interference contrast and phase contrast optical systems, and a drawing tube. Pencil line drawings were then scanned and traced over using Microsoft Office Powerpoint 2003. Measurements were made in micrometres. Dorsal shield lengths and widths were respectively taken from the anterior to posterior shield margins along the midline, and from the lateral margins at the level of setae j6; the lengths and widths of the idiosoma, including the dorsal shield and the soft marginal cuticle, were also measured at the same levels. The widths of the sternal shields were measured from the lateral margins of the shield at the level of setae st2, and their lengths from the anterior to posterior margins along the midline. Lengths of epigynal shields were taken from the anterior margin of the hyaline extension to the posterior margin of the shield along the midline and also from setae st5 to the posterior tip of the shield; shield width was taken at the level of st5. The anal shield lengths were measured along their midline from the anterior to posterior margin, including the cribrum, and their widths at the broadest point. Leg lengths were taken from the base of the coxa to the apex of the tarsus, excluding the ambulacrum (stalk, claws and pulvillus). The length of the second cheliceral segment was measured from the base to the apex of the fixed digit, and its width at the broadest point. The length of the fixed cheliceral digit was taken from the dorsal lyrifissure to the apex, and that of the movable digit from the base to apex. In the case of the 502 Zootaxa 3861 (6) 2014 Magnolia Press KAZEMI ET AL.

redescription of G. jondishapouri, the measurements given first are those taken from specimens collected by us, followed, within square brackets, by: (1) measurements taken on the borrowed holotype specimen (when character was visible), and (2) in parentheses, measurements duplicated from the text of the original species description, when it was provided, in order to facilitate comparison. The notation for idiosomal setae follows that of Lindquist & Evans (1965) adapted by Evans & Till (1965, 1966) and Lindquist (1994), and that for leg and palp setae follows that of Evans (1963a, 1963b). Distinction of idiosomal pore-like structures as glandular openings (gland pores or solenostomes) versus poroids (proprioceptors or stress receptors, often called lyrifissures ) were distinguished based on previous work by Athias-Henriot (1969b, 1971, 1975) on various Mesostigmata and by Krantz & Redmond (1987) on Macrochelidae, and their notation generally follows that of Athias-Henriot (1975) for the dorsal idiosoma, and Athias-Henriot (1971) for the ventral idiosoma. There are discrepancies in notation of dorsal structures between Athias-Henriot (1975) and Beard (2001) (respectively, homologous setae with different names are idl1=idl2, id5=id1a) and more substantial ones with Athias-Henriot s earlier publications (e.g. 1971, 1973). The notation of pore-like structures on the sternal shield and peritrematal shield region also followed modifications and additions by Johnston & Moraza (1991), Lindquist & Makarova (2012; gland opening gvb), and Lindquist & Moraza (2014). Because the gland openings on coxae I do not seem to have been given a name in earlier works, we herein use gc (for gland and coxal ) to identify them. Femur I in Gaeolaelaps has three ad and two pd setae, based on Evans & Till (1965, pp. 283 284). Beaulieu (2009) had erroneously indicated that G. gillespiei has two ad and three pd on femur I, because the most proximal dorsal seta (ad3) is more or less aligned with pd1 2 in the adult stage, as it may appear in other Gaeolaelaps species and other Mesostigmata such as Pergamasus (Parasitidae; Evans 1963a, p. 281). Setal positions may be interpreted differently due to the elongate or irregular shape of femur I. Since (1) the repression of a seta (e.g. ad3 of femur I) followed by its replacement by a de novo seta (pd3) would represent an unparsimonious hypothesis, and that (2) setae may shift in position through evolutionary time, we suggest to follow Evans & Till s notation, which was based on Evans s study (1963a) of leg chaetotaxy of immature and adult stages of several mesostigmatan families. Notation of the three ventral setae of femur II varies among studies, due to different interpretation of setal positions. Herein, we follow the notation of Strong & Halliday (1994), with seta av inserted at a level near the middle of the femur length and more anteriorly than setae pv1 (distalmost) and pv2 (proximalmost). Seta av was labelled av2 in Evans & Till (1965, p. 289), Beaulieu (2009) and Walter & Moser (2010). The distalmost seta (herein pv1) was labelled av1 in Evans & Till (1965, also illustration p. 289, consistent with their notes p. 288), therefore considering the presence of two anteroventral setae; however, they also made a contradictory statement (p. 284) that there is one av and two pv on femur II. Shaw (2012) also considers that there are two anteroventral setae on femur II, labelling the anteriormost seta as av1 (herein av) and the most proximal and posterior seta av2 (herein pv2). Although this variation in notation may appear as a taxonomic impediment, the most important is to homologise setae across taxa, and therefore, an illustration of leg segments or a statement clearly describing the position of any modified seta should suffice. The revised diagnosis of the genus was modified and expanded from Beaulieu (2009), using descriptions of new species from the literature and specimens of several described and undescribed species of Gaeolaelaps, as compared with descriptions and specimens of other related hypoaspidine genera. Species exhibiting characters exceptional for the genus are listed within the detailed diagnosis below. This list of exceptional species is probably not exhaustive (even if also considering those listed in Beaulieu (2009), which are mostly not repeated here), in part because it is essentially based on the literature, which often ignores many characters of interest (leg chaetotaxy, gnathosomal characters, pores and poroids). Abbreviations are as follows: ACISTE Acarological Collection, Institute of Science and High Technology and Environmental Sciences, Graduate University of Advanced Technology, Kerman, Iran; ACJAZUT Acarological Collection, Jalal Afshar Zoological Museum, Faculty of Agriculture, University of Tehran, Karaj, Iran; CNC Canadian National Collection of Insects, Arachnids and Nematodes, at Agriculture and Agri-Food Canada, Ottawa, Canada. GAEOLAELAPS FROM IRAN Zootaxa 3861 (6) 2014 Magnolia Press 503

Genus Gaeolaelaps Evans & Till, 1966 Hypoaspis (Gaeolaelaps) Evans & Till, 1966: 159. Type species: Laelaps aculeifer G. Canestrini, 1884, by original designation The short diagnosis below was modified from the genus diagnosis in Beaulieu (2009). The subsequent detailed diagnosis is similar to the genus description in Beaulieu (2009), but excludes several characters of lesser significance at the genus level. Short diagnosis. Hypoaspidine laelapid mites with the following combination of characters: dorsal shield usually bearing 39 pairs of simple, short to moderately elongate setae, sometimes with 0 3 additional unpaired median setae; adult female sternal shield longer than broad (rarely broader than long), presternal area weakly sclerotised, usually lineate and granulate; epigynal shield tongue-shaped or flask-shaped, not markedly broadened posteriorly, bearing a pair of setae, and usually well separated from, and never touching, the subtriangular or pearshaped anal shield; opisthogastric cuticle usually with 7 9 pairs of simple setae (rarely more); epistome margin rounded or subtriangular, denticulate; six (rarely five or seven) deutosternal rows with at least five denticles each (rarely 1 4); chelicerae strong, chelate-dentate, pilus dentilis setiform; leg setation normal for Laelapidae, including nine setae on genu IV (pl2 absent); av on femur II, ventral setae on genu and tibia II-IV, and subapical setae of tarsi II IV usually slightly thickened to spine-like. However, there are numerous exceptions within the genus (see detailed diagnosis below, and genus description in Beaulieu, 2009). Detailed diagnosis 1. Dorsal shield partly or completely covering dorsal idiosoma, not extending ventrally, suboval to strongly tapered from level of setae r3 4, oval in several cockroach, carabid and scarab beetle associates (Strong & Halliday, 1994; Faraji & Halliday, 2009). 2. Dorsal shield usually bearing 39 pairs of simple, short to moderately elongate setae, including Px2 3 (occasionally absent, including in some arthropod associates), and 0 3 unpaired median setae (Jx); z3 occasionally absent, and rarely a few others; setae, especially J4 5, Z5, sometimes inconspicuously barbed, rarely other setae, e.g. all dorsal setae except j1 and z1 barbed in G. jondishapouri. 3. Lateral soft cuticle with 1 8 pairs of marginal (r R) and 0 to few UR setae, rarely more, with at least 18 pairs of setae in G. millipedus Rosario (1981) and G. angustiscutatus (Willmann, 1951), and 32 37 in the carabid associate G. carabidophilus Trach (2012). 4. Dorsal shield with 16 pairs of poroids (five podonotal and 11 opisthonotal) and 4 6 gland pores (2 3 podonotal, gd2 sometimes absent, gd4 usually absent; 2 3 opisthonotal, gd6 sometimes absent; see discussion); gd4 present in some specimens of G. oreithyiae (Walter & Oliver, 1989) (Kazemi, personal observation). 5. Presternal region weakly sclerotised and granulate and/or lineate, rarely with a pair of well sclerotised platelets, e.g. in G. orbiculatus Nemati & Mohseni (2013). 6. Sternal shield longer than wide; rarely broader than long, mostly in arthropod associates, sternal shield length 0.9 x width in free-living G. jondishapouri. 7. Posterior margin of sternal shield straight, or slightly convex or concave; rarely deeply indented, e.g. in the cockroach associate G. concavus (Faraji & Halliday, 2009). 8. Sternal shield bearing three pairs of simple setae and two pairs of poroids; rarely setae st1 off shield, e.g. G. aculeiferoides (Teng, 1982), G. debilis (Ma, 1996), G. krantzi (Arutunian, 1993), or borne on paired anterior extensions of shield in G. jondishapouri; rarely poroids iv3 captured by sternal shield e.g. in G. carabidophilus. 9. Setae st4 on soft cuticle, rarely on separate platelets; in some cases, e.g. G. minor (Costa, 1968), st4 may wrongly appear to be inserted on the endopodal platelet, probably due to the soft cuticle bearing st4 being folded over the platelet (Kazemi, personal observation). 10. Epigynal shield tongue- or flask-shaped, not markedly broadened posteriorly, bearing one pair of simple setae, and not touching anal shield; ornamented with two slightly curved diagonal lines that typically join medially (as such forming an inversed V, or joined by a transverse line) and enclose posteriorly a reticulated area comprising several cells, posterior area without typical reticulation in the following species: smooth in G. minor and G. negevi (Costa, 1969) (considered to be a junior synonym of G. gracilis (Meledzhaeva, 1963) by Bregetova, 1977); with eight long narrow cells in G. schusteri (Hirschmann, 1966 sensu Costa 1974), and G. 504 Zootaxa 3861 (6) 2014 Magnolia Press KAZEMI ET AL.

theodori (Costa, 1974); with a series of diagonal lines oriented posteromedially (forming a series of Vs) in the ant associate G. glabrosimilis (Hirschmann et al., 1969), and G. franzi (Van Aswegen & Loots, 1970); with a few similar diagonal to semi-circular lines in G. ruggi (Strong & Halliday, 1994) and G. etiopicus (Berlese, 1918 sensu Van Aswegen & Loots, 1970); with slightly curved, almost transverse lines in G. rosei (Strong & Halliday, 1994); with somewhat longitudinal lines in G. circularis (Hyatt, 1964). 11. Anal shield small, inversely pear-shaped or subtriangular, more or less rounded anteriorly, narrowed posteriorly, rarely oval or pentagonal; nearly rounded in G. orbiculatus, oval in G. millipedus and G. rosei (Strong & Halliday, 1994) and pentagonal in G. brevior (Faraji & Halliday, 2009) and G. segregatus (Faraji & Halliday, 2009); with two shoulders or bulging laterally at position of pore gv3 (and level of para-anal setae) in G. farajii Nemati & Mohseni, 2013. 12. Postanal seta usually slightly longer than para-anal setae, exceptionally absent in the fire-ant associate G. invictianus Walter & Moser, 2010. 13. Cribrum typically with 3 4 rows of spicules; anteriormost row sometimes extending anteriorly to level or near level of para-anal setae, e.g. in G. khajooii and G. jondishapouri. 14. Peritrematal shields narrow, connected to dorsal shield anteriorly, not extending beyond coxae IV posteriorly; nearly always free from exopodals. Parapodal and metapodal elements small, inconspicuously developed. 15. Peritremes narrow, usually reaching anteriorly to the level of coxae I, sometimes shorter, ending near middle of coxae II, exceptionally short in G. carabidophilus, reaching only mid-level of coxa III. 16. Soft opisthogastric cuticle usually with 7 9 pairs of simple setae; hypertrichous in G. carabidophilus, if considering ventrally inserted R UR setae. 17. Male with holoventral shield, sometimes eroded laterally; rarely with a genitiventral shield eroded in opisthogastric region and a separate anal shield, e.g. in G. invictianus. 18. Epistome always denticulate, with rounded or subtriangular anterior margin, sometimes more or less straight e.g. in G. zhoumanshuae (Ma, 1997) and G. dactylifera (Fouly & Al-Rehiayani, 2011); rarely pronounced and pointed anteriorly e.g. in G. brevior and G. segregatus. 19. Deutosternal groove with six rows of denticles, rarely five or seven; seven rows in G. dasypus (Menzies & Strandtmann, 1952), collected from an armadillo s nest; each row bearing usually at least five denticles; rarely fewer, e.g. 1 5 denticles per row in G. jondishapouri. 20. Palp tarsal claw usually two-tined, rarely three-tined; third tine long, or short and basal as in G. jondishapouri. 21. Chelicerae well-developed, chelate-dentate; fixed digit often with a serrated row of small teeth proximal to the short, setiform pilus dentilis; movable digit with two teeth, exceptionally separated by a row of smaller teeth (in G. angustiscutatus). 22. Leg chaetotaxy normal for Laelapidae; nine setae on genu IV, including only one posterolateral; ventral and/or subapical setae of tarsi II-IV usually slightly thickened or modified into spines; av on femur II and ventral setae on genua and tibiae II-IV usually thickened or spine-like; femur IV occasionally with ad1 elongate, and often with ad2 and pd thickened; tarsus IV occasionally with 1 4 elongate setae (typically pd2 3, but also ad2 3). Gaeolaelaps jondishapouri Nemati & Kavianpour, 2013 Gaeolaelaps jondishapouri Nemati & Kavianpour, 2013: 64. Diagnosis (modified from Nemati & Kavianpour, 2013). Female with dorsal shield abruptly tapering from level of S4 setae, bearing 39 pairs of moderately long setae, more or less reaching base of next seta in opisthosomal region, each seta with 1 4 small barbs; gland pores gd2 and gd6 present; seven marginal (r-r) setae, born on soft cuticle, with relatively thick sclerotised rings around alveoli. Sternal shield slightly wider than long, ratio of length/width 0.9; reticulate in its anterior third, smooth posteriorly, slightly concave posteriorly, with setae st1 on pointed edge of two anterior extensions of shield. Presternal region lightly sclerotised, lineate. Epigynal shield flask-shaped, slightly widened posteriorly, ratio of widths at level of broadest point/level of st5 1.2, smooth except for an inversely Y-shaped line. Eight pairs of opisthogastric setae on relatively thick sclerotised rings around alveoli. Peritremes relatively short, anteriorly reaching posterior margin of acetabulum I. Epistome with anterior margin subtriangular. Deutosternum with six rows of 1 5 denticles. Fixed cheliceral digit with 5 7, rarely eight, teeth on its anterior half. Internal malae with long median projections and two additional pairs of lateral projections of GAEOLAELAPS FROM IRAN Zootaxa 3861 (6) 2014 Magnolia Press 505

similar length. Palp apotele with three tines, including a minute basal tine. Leg setae simple and mostly slender; ventral setae usually thicker than lateral and dorsal setae; av of femur II not spur-like; seta av on genu IV, setae av, pv and pl2 on tibia IV and setae md, pv2, pl2 and pd2 on tarsus IV thickened; setae pd2 and pv2 on tarsus IV inserted well proximal to ad2 and av2, respectively. Male with holoventral shield relatively narrow posteriorly, poorly developed behind coxae IV. Spermatodactyl short, curved and slightly extending beyond movable digit (male characters based on illustrations in Nemati & Kavianpour, 2013). Redescription (Figs 1 12). Female (n=5, excluding holotype). Dorsal idiosoma (Figs 1, 11). Idiosoma 545 568 [573] long, 288 311 [291] wide. Dorsal shield 504 526 [562 (543 550)] long, 238 267 [276 (270 340)] wide, reticulate throughout except for smooth anteromedian region extending from behind j6 setae to anterior shield apex, covering most of dorsal idiosoma but leaving an exposed band of soft lateral cuticle; shield slightly tapering after humeral region from level of r3 to level of S4, where it then sharply tapers into a V-shape, and ends in a rounded posterior apex; shield with 39 pairs of setae of almost uniform length, relatively short and usually not reaching base of following setae. Dorsal shield setae j1 (39 42) [41] and z1 (16 18) [16 (17 19)] smooth; J5 (39 43) [39], Z4 (44 56) [58 (50 60)], S4 (48 52) [53], and S5 (53 59) [54] with 2 3 barbs; Z5 (57 61) [52] with 3 4 barbs; and all other setae (30 44) [33 47] usually with one small barb on distal half (Fig. 2); without unpaired setae. Shield with 16 pairs of discernible poroids (oval-shaped symbols) and six pairs of gland pores (circular symbols), including gd2 (posterolaterad of setae j4) and gd6 (posteromediad of z6). Setae r6 (24 27) [24 (34 36)], R1 6 (26 56) [28 57 (25 70] and one UR (33 34) [34] inserted on soft cuticle laterad of dorsal shield, with relatively thick sclerotised rings around alveoli (Figs 1, 11). Sigillae consistent across individuals, as illustrated in Fig. 1. Ventral idiosoma (Fig. 5). Tritosternum with narrow columnar base, 24 34 [34 (44 49)] long, 14 17 [17] wide at base, 7 9 [7] at apex, and two sparsely pilose laciniae 109 114 [111 (119 139)] long, and fused basally for 5 7 [6] µm. Presternal area weakly sclerotised, lineate and very slightly granulate. Soft integument behind coxae I with three pairs of gland openings flanked by two minute valves. Sternal shield 108 114 [115 (120 138)] long, 117 121 [122 (130 145)] wide, finely reticulated anterolaterally, otherwise smooth; anterior and posterior margin of shield moderately concave, anterolateral corners narrowly extending between coxae I II, distally bearing gland pores gvb; endopodal elements between coxae II and III fused with shield; shield bearing three pairs of smooth setae st1 (37 41) [41], st2 (38 42) [40] and st3 (35 38) [38], and two pairs of slit-like poroids, iv1 and iv2, their axes oriented transversely; vestige of gland pores gv1 apparently present on posterior margin of sternal shield (Fig. 12). Metasternal setae (33 35) [34 (30 34)] and poroids iv3 on soft cuticle flanked by narrow endopodal elements between coxae III/IV. Epigynal shield flask-shaped, 196 209 [216 (180 213)] long, 99 108 [109] from setae st5 level to posterior margin, 77 93 [94] wide, slightly broadened past st5; anterior hyaline margin of shield irregularly convex and usually slightly covering posterior margin of sternal shield, with an inverse Y shaped ornamentation, otherwise smooth; epigynal shield separated from anal shield by almost length of anal shield; setae st5 (31 33) [33 (30 33)] inserted on lateral margins of shield, approximately at level of posterior edge of coxae IV. Poroids iv5 inserted on soft cuticle, at level of tip of st5. A strip-like postgenital sclerite (sometimes divided into 2 4 narrow strips) closely bordering posterior margin of epigynal shield. Anal shield subtriangular, 92 98 [107 (99 103)] long, 87 95 [94 (94 96)] wide, with lineate-reticulate ornamentation, anterior margin of shield slightly convex, circumanal setae smooth, postanal seta (33 39) [38 (33 36)] longer than para-anal setae (26 30) [28 (27 30)]; cribrum well developed, with two single files of denticles each extending from cribrum to near base of para-anal setae; anal opening located at mid-level of shield; pair of glands gv3 inserted on shield lateral margins, at level between para-anal setae and posterior edge of anus. Peritrematal shields weakly developed posteriorly beyond stigmata, almost reaching level of coxae IV posterior margin, extending anteriorly and fused to dorsal shield at base of seta z1 level; bearing three gland pores (gp) and three poroids (ip): two of these poroids and one of these pores located on short, narrow post-stigmatic plate, one pore located near anterior extremity of peritreme (Fig. 6). Peritremes somewhat short (218 228 [221]), extending from stigmata to posterior margin of coxae I (Fig. 6). Exopodal and parapodal platelets narrow, divided into sclerotised strips along coxae II-IV; gland pore gv2 present anteromediad of parapodal platelet. One pair of minute paragenital platelets anterior to setae ZV1. Primary (most lateral) metapodal platelets suboval, with irregular margin, and secondary (more median) pair tiny, oriented more or less transversely. Opisthogaster with five pairs of poroids (four ivo; ivp) and three pairs of smooth ventral setae JV1 (30 34) [34 (30 32)], JV2 (32 36) [32 (30 32)] and ZV1 (25 29) [28 (30 33)], and five pairs of setae with 1 2 barbs: JV3 (35 37) [38 (30 32)], JV4 (40 43) [44 (39 41)], ZV2 (32 37) [38 (30 33)], ZV3 (25 29) [31 (30 33)] and ZV4 (39 42) [42 (30 33)]; JV5 (58 60) [60 (57 60)] with 3 4 barbs. Gnathosoma (Figs 3 4, 7 8). Anterior margin of epistome subtriangular and more or less rounded apically, 506 Zootaxa 3861 (6) 2014 Magnolia Press KAZEMI ET AL.

denticulate, with about 50 small denticles (Fig. 3). Corniculi horn-like, 42 47 [46] long. Salivary stylets narrow and apically pointed. Internal malae fringed, with a pair of thick, contiguous median projections, and two pairs of thinner lateral projections, the inner pair shortest. Labrum considerably longer than corniculi. Hypostomal setae smooth, h1 (43 47 [(31 37)]> h3 (37 39 [(27 30)])> h2 (27 30 [28 (24 30)]), capitular (pc) setae smooth (39 43 [(36 41)]). Deutosternal groove with six rows of denticles, each row with 2 4 and more rarely 1 5 denticles (holotype has most deutosternal rows with two denticles close to each of lateral margins of deutosternum); lateral margins of deutosternum subparallel (Fig. 7). First (basal) segment of chelicerae 64 76 [67] long, second segment 175 191 [186 (240 245)] long, including fixed digit, 54 56 wide; fixed digit of chelicera 57 63 [63] long, bearing 5 7, rarely eight, teeth on its anterior half, including subapical offset tooth (gabelzhan); pilus dentilis short and setiform (Fig. 8). Movable digit of chelicera 72 77 [79 (75-84)] long, bidentate (Fig. 8). Palp chaetotaxy normal for Laelapidae; all setae smooth, al1 and al2 of palpgenu and al of palpfemur slightly thickened, palptarsus apotele with two main tines, and an additional, very short basal tine (Fig. 4). FIGURES 1 4. Gaeolaelaps jondishapouri. Female. 1. Dorsal idiosoma; 2. Details of some dorsal shield setae; 3. Epistome; 4. Palp. GAEOLAELAPS FROM IRAN Zootaxa 3861 (6) 2014 Magnolia Press 507

FIGURES 5 10. Gaeolaelaps jondishapouri. Female. 5. Ventral idiosoma; 6. Peritrematal shield; 7. Subcapitulum; 8. Chelicera; 9. Leg II, dorsal view; 10. Leg IV, dorsal view. 508 Zootaxa 3861 (6) 2014 Magnolia Press KAZEMI ET AL.

FIGURES 11 12. Gaeolaelaps jondishapouri. Female. 11. Posterior region of dorsal idiosoma showing the basal platelets around setal sockets of R setae. 12. Sternal shield, showing st1 sockets on its anterior margin. Legs (Figs 9 10). Leg chaetotaxy normal for Laelapidae (sensu Evans and Till, 1965). All legs with ambulacrum, lengths of legs I-IV 549 562 [572 (539 549)], 416 428 [429 (444 452)], 386 405 [424 (418 422)] and 608 634 [621 (623 628)], respectively. Lengths of femora I 94 106 [113 (123 126)], II 78 87 [(80 84)], III 72 76 [76 (71 77)], IV 97 109 [124 (130 135)]; genua I 81 85 [80 (87 95)], II 61 66 [63 (65 70)], III 56 60 [59 (58 62)], IV 78 83 [78 (80 85)]; tibiae I 88 95 [85 (36 39)], II 64 70 [66 (73 77)], III 59 62 [63 (60 65)], IV 90 96 [89 (95 100)]; tarsi I 158 164 [163 (155 161)], II 118 130 [127 (129 136)], III 124 135 [123 (129 136)], IV 194 199 [200 (200 208)]. Leg setae mostly simple, needle-like; tarsi II-IV with al1, pl1, av1, and pv1 relatively thick; leg I without conspicuously thickened seta; trochanter II with al short and thickened; trochanter IV with ad slightly thickened; femur IV with ad2 short and slightly thickened; leg IV with the following setae considerably thickened or spine-like: av on genu; av, pv and pl2 on tibia; md, av2, pv2, pl2 and pd2 on tarsus. Coxa I each bearing two gland pores (gc) (Fig. 5). Remarks. Gaeolaelaps jondishapouri can be distinguished from any other Gaeolaelaps species by two distinctive, if not exceptional, characters among known members of the genus: (1) a dorsal shield abruptly tapering from the level of setae S4; (2) setae st1 inserted relatively far anteriorly from poroids iv1, on the apex of two pointed extensions of the sternal shield (making the anterior margin appear bilobed, see Figs 2, 12). Whereas the original description shows a sternal shield with a straight anterior margin, without extensions, leaving st1 completely off the shield, the re-illustration of the sternal shield by Kavianpour & Nemati (2014) is similar to ours. Other notable discrepancies that we noticed between the original description and the specimens we examined (including the holotype) are: (1) denticulate rows of deutosternal groove usually with 2 4 denticles [rows appear smooth in the original illustration, and there is no mention of denticles in the text]; (2) palp apotele with a small basal tine, in addition to the two main tines; (3) 16 poroids and six gland pores on the dorsal shield [only 18 porelike structures in the original description, missing gland pore behind j4, and poroids near s3, behind s6, and laterad of Z4; Nemati & Kavianpour had acknowledged in the text that they could have overlooked some pores or poroids]; (4) peritrematal shields anteriorly fused to dorsal shield, each bearing one gland pore [in the original description, peritremes appear without shielding anteriorly and therefore free from the dorsal shield]; (5) coxae I and surrounding soft integument with five gland openings; (6) cribrum with two files of denticles extending anteriorly to near the base of para-anal setae [not illustrated nor mentioned in the original description]; (7) setae h1 (43 47) and h3 (37 39) moderately longer [31 37 and 27 30, respectively, in the original description]. A few other measurements do not overlap between the original description and ours (e.g. dorsal shield; see notes in the redescription above), but these differences may at least in part be due to differences among populations; (8) most leg setae are needle-like, i.e. rather straight and with a relatively constant thickness through most of their length GAEOLAELAPS FROM IRAN Zootaxa 3861 (6) 2014 Magnolia Press 509

(not finely tapering as many setae in Nemati & Kavianpour, 2013); setae of leg I and of coxa-tibia II are thin and needle-like, except thickened al1 on coxa and ventral setae on tibia (in contrast to the original illustrations showing most setae of legs I-II thickened or spine-like). Although this is a relatively inconspicuous feature, G. jondishapouri also has all dorsal setae with one or more barbs, with the exception of j1 and z1. The specimens of G. jondishapouri that we examined also differ from Nemati & Kavianpour s (2013) description by the shape of the posterior region of the dorsal shield. We would rather describe this region as V- shaped, or even subtriangular, with a rounded apex, instead of bell-shaped, as indicated in their species key (examination of the holotype shows a dorsal shield that may appear as bell-shaped because the shield is bent posteriorly on that specimen). With such a distinctive tapering of the dorsal shield, we believe that G. jondishapouri is closely related to G. changlingensis (Ma, 2000), with the minor difference that the shield of G. changlingensis abruptly tapers from the level of S3 instead of S4 as in G. jondishapouri. Based on its description, G. changlingensis also differs from G. jondishapouri by its narrower sternal shield (Li-Ming Ma pers. comm.), st2 inserted more posteriorly, and possibly longer idiosomal setae (however, some of these apparent differences may be due to inaccurate illustrations). Nemati & Kavianpour (2013) placed G. jondishapouri in the G. angusta species group (sensu Karg, 1979) based on the tapering posterior region of the dorsal shield. However, we do not concur that G. jondishapouri can be placed in the G. angusta group, because the four species originally placed in this species group have dorsal shields that taper much more anteriorly than that of G. jondishapouri, and consequently are quite narrower posteriorly. Based on Karg s hypothesis (1979), the dorsal shield of species in the angusta group is wedge-shaped, characterised by shoulders (typically near the level of r3 4), from which the shield gradually tapers to a relatively narrow apex (see, for example, the redescription of G. queenslandicus (Womersley, 1956) by Costa, 1966). The dorsal shield of G. jondishapouri is therefore quite distinct from that of members of the angusta species group, and the same applies to the putatively close relative G. changlingensis. Such shape of the dorsal shield is strongly reminiscent of that of Stratiolaelaps scimitus (Womersley), which differs from congenerics by a shield abruptly tapering at level of S1 2 (Walter & Campbell, 2003). Very few species of Gaeolaelaps have a deutosternum with fewer than five denticles per row. Gaeolaelaps jondishapouri is among the exceptions, as is G. spiniseta, which has a deutosternum with 3 4 denticles per row (Barilo, 1991). However, G. jondishapouri can easily be distinguished from G. spiniseta by several characters, including its posteriorly tapered dorsal shield (rounded in G. spiniseta), which bears 39 pairs of moderately long setae (38 in G. spiniseta, with setae longer, usually reaching the base of next setae), flanked by seven pairs of marginal setae (only one pair in G. spiniseta); its sternal shield bearing st1 on anterior extensions of the sternal shield (st1 inserted closer to iv1 and well behind the anterior margin of the shield in G. spiniseta); and by its rounded epistome (subtriangular or pointed in G. spiniseta, according to the illustration in Barilo, 1991). Material examined. Holotype female: Southwestern Iran, Ahwaz, Khuzestan Province, 2010, coll. M. Kavianpour. Paratypes: 10 females: southeastern Iran, Kerman Province, Jiroft County (28 51' 29" N; 57 71' 92" E), altitude 589 m above sea level, from cow manure in a citrus orchard, 4 Jan 2011, coll. A. Rajaei, deposited in ACISTE. One female with same data, deposited in ACJAZUT. One female with same data, deposited in CNC. Five females: collected from soil and litter, in the same orchard as above, same date and collector, deposited in ACISTE. Gaeolaelaps khajooii Kazemi, Rajaei & Beaulieu sp. nov. (Figs 13 28) Diagnosis (based on adult female). Dorsal shield clearly broadest at level of setae r3 (ratio of widths at r3/s3 level 1.5), progressively tapering until s6, subparallel from s6 to level of S4, rounded posteriorly; with 39 pairs of mostly smooth and moderately long setae; an additional, median unpaired seta may be present between J4 5; gland pores gd2 and gd6 absent; three pairs of marginal setae present on lateral soft cuticle. Sternal shield longer than wide (ratio of length/width 1.3), reticulate throughout, its anterior margin with or without a small median invagination; posterior margin slightly convex, with two minute projections. Epigynal shield tongue-shaped, very slightly broadened posteriorly. Anal shield subtriangular, with two single files of denticles reaching level of paraanal setae; anal shield separated from epigynal by about length of anal shield. Peritremes relatively short, anteriorly reaching mid-level of coxae II. Post-stigmatic area of peritrematal shield narrowly extended to posterior edge of coxae IV. Opisthogastric and dorsolateral soft integument bearing seven and three pairs of setae, respectively. 510 Zootaxa 3861 (6) 2014 Magnolia Press KAZEMI ET AL.

Deutosternal groove with six rows of 10 17 denticles. Internal malae with a pair of long median projections and a pair of shorter lateral projections. Palp apotele 2-tined. Fixed digit of chelicera with 10 13 teeth, including a serrated row of 6 9 small teeth posterior to pilus dentilis. Leg setae simple and slender, except following setae thickened and/or spine-like: ad3 (only slightly thickened) on femur I; av on femur II; pd on femur IV; all ventral setae on genua and tibiae II-IV (some only slightly thickened), and pl1 on tibia IV; md, av1 2, mv and pv1 pv2 on tarsus II; al1, av1 2, pv1 2, pl1 (slightly thickened), md and mv on tarsus III; pl2 (slightly thickened), av2, pv2 and mv on tarsus IV; pd2 3 on tarsus IV slender and elongate. Description. Female (n=3). Dorsal idiosoma (Fig. 13). Idiosoma length 541 552, width 301 307. Dorsal shield 489 522 long, 203 213 wide at j6 level, covering most of dorsal idiosoma, 248 253 wide at level of r3 and 163 170 at level of S3; reticulate throughout except anteromedially; with 39 pairs of needle-like setae of which some of the most posterior pairs (e.g. J4 5, Z5, Jx) have a few minute barbs; 0 1 unpaired median seta Jx between setae J4-J5. Dorsal shield setae j1 5 32 36, j6 28 31, z1 23 28, z2 31 32, z3 33 34, z4 34 38, z5 34 36, z6 28 30, s1 22 23, s2 24 27, s3 35 40, s4 29 35, s5 28 31, s6 29 36, r2 31 35, r3 38 45, r4 31 34, r5 29 34, J1 5 27 31, Jx 28 30, Z1 28 31, Z2 3 24 29, Z4 28 30, Z5 38 44, S1 4 29 34, S5 33 39 long. Setae R1 (29 31), R4 (30 33) and R5 (34 38), and a pair of poroids (idr3) on lateral soft integument. Dorsal shield with 16 pairs of poroids and only four pairs of gland pores (gd2 and gd6 pores absent). Ventral idiosoma (Figs 14, 16 17). Tritosternum with a narrow columnar base, 32 36 long, 14 17 wide at base, 7 9 wide at apex, and two sparsely pilose laciniae, length free for 90 95 and fused basally for 2 4 µm. Presternal area lightly sclerotised and punctate, with a few transverse lines. Sternal shield 154 160 long, 114 118 wide, reticulate throughout; anterolateral corners narrowly extending between coxae I-II; anterior margin irregularly straight, with or without a small median invagination; posterior margin slightly convex, with two minute projections near medial axis, which may represent vestiges of gland pore gv1 (Figs 16 17); shield bearing three pairs of smooth setae st1 (38 39), st2 (37 38) and st3 (34 36), and two pairs of poroids, lyrifissures iv1 slitlike and oriented obliquely, iv2 suboval. Metasternal setae (27 30) and poroids iv3 on soft cuticle. Endopodal elements between coxae III IV narrow, anteriorly free from sternal shield. Epigynal shield 185 190 long, 92 95 from st5 level to posterior margin, 69 71 wide, 58 62 wide at narrowest point (near coxae IV level), and 81 83 at broadest point past setae st5; anterior hyaline margin irregular, not covering posterior area of sternal shield; surface reticulated with an inverse Y shaped pattern, with the Y posteriorly embracing eight large cells; setae st5 (27 29) inserted on lateral margins of shield at level of posterior margin of coxae IV, and poroids iv5 inserted laterad of st5. Anal shield subtriangular, anteriorly rounded, 74 80 long, 74 80 wide, anterior margin gently rounded, and surface lineate-reticulate; circumanal setae smooth, postanal seta (35 38) longer than para-anal setae (29 31), cribrum well developed, narrowly extending laterally to level of adanal setae; anus located slightly posterior to mid-level of shield; pair of glands gv3 inserted on lateral margins of shield at level of anterior margin of anus. Peritrematal shields well developed anteriorly and fused narrowly to dorsal shield at level of z1, with a narrow strip of granular cuticle parallel to anterior edge of shield; between stigmata and coxa II, shield almost limited to a relatively narrow band of cuticle at level between coxae II and III, bearing a poroids and a gland pore; post-stigmatic region of shield narrowly extending to posterior level of coxae IV, bearing two and one gland pore; an additional pore located on peritrematal shield at level of seta s1. Peritremes relatively short (178 182) and narrow, extending from stigmata to mid-level of coxae II. Three exopodal platelets between coxae I-II, II-III and III-IV present, anterior two platelets small and subtriangular, those between coxae III-IV slightly extending posteriorly; parapodal platelets strip-like, bearing gland pore gv2. Opisthogastric integument with two pairs of small, narrow paragenital platelets between st5 and ZV1, and two pairs of narrow metapodal platelets, the smallest at or above level of ZV1 and the largest one near level of JV1; seven pairs of ventral opisthogastric setae JV1 (19 23), JV2 (18 22), JV3 (24 26), ZV1 (23 28) and ZV2 (27 31) smooth; JV4 (28 32), JV5 (44 49) with 1 2 minute barbs; and five pairs of poroids. Gnathosoma (Figs 20 24). Anterior margin of epistome convex and finely denticulate, with about 30 denticles (Fig. 20). Corniculi horn-like (58 64). Internal malae fringed, slightly longer than corniculi, with a pair of long median projections and a pair of shorter lateral projections. Labrum acuminate, considerably longer than internal malae. Hypostomal and capitular setae smooth, h1 (50 51)>h3 (35 38)>h2 (34 35) pc (32 35). Deutosternal groove with six rows of denticles, progressively broader from posterior to anterior, each with 9 17 denticles; anteriormost row angled medially. First cheliceral segment 58 67 long, second segment 190 196 long and 54 56 wide; fixed digit 73 75 long, with 10 13 teeth, including (from distal to proximal) a subapical large offset tooth (gabelzhan) followed by two other teeth, one small and one large, anterior to the short, setiform pilus dentilis, and GAEOLAELAPS FROM IRAN Zootaxa 3861 (6) 2014 Magnolia Press 511

6 9 smaller, tightly aligned teeth followed posteriorly by a larger tooth; movable digit of chelicera 85 87 long, bidentate; dorsal cheliceral seta short and setiform (Fig. 22). Palp chaetotaxy normal for Laelapidae, all setae smooth; palpgenu setae al1 and al2 slightly thick and spatulate, palpfemur al slightly thick and spine-like; palp apotele 2-tined (Figs 23 24). FIGURES 13 19. Gaeolaelaps khajooii Female. 13. Dorsal idiosoma; 14. Ventral idiosoma; 15. Details of some dorsal shield setae; 16 17. Sternal shield; 18. Ambulacrum II; 19. Ambulacrum I. 512 Zootaxa 3861 (6) 2014 Magnolia Press KAZEMI ET AL.

FIGURES 20 24. Gaeolaelaps khajooii Female. 20. Epistome; 21. Subcapitulum; 22. Chelicera; 23. Palp, trochanter to genu; 24. Palptarsus, showing apotele and setal sockets. FIGURES 25 28. Gaeolaelaps khajooii Female. 25 28. Legs I-IV, dorsal view. GAEOLAELAPS FROM IRAN Zootaxa 3861 (6) 2014 Magnolia Press 513

Legs (Figs 25 28). All legs with ambulacrum, that of leg I longer (35 36) than those of legs II-IV (24 26) (Figs 18 19), lengths of legs I-IV as follows: 591 597, 425 451, 384 392, 582 605, respectively. Lengths of femora I 104 111, II 85 96, III 75 77, IV 117 123; genua I 83 87, II 69 70, III 50 53, IV 89 92; tibiae I 95 97, II 66 67, III 51 53, IV 96 98; tarsi I 156 163, II 108 115, III 105 110, IV 156 160. Leg chaetotaxy normal for Laelapidae (sensu Evans & Till, 1965) and Gaeolaelaps (see Beaulieu, 2009). Most setae simple, needle-like and of similar length, except a few shortened, elongate or thickened setae: trochanter I with al short and slightly thickened; trochanter II with al1 thickened; trochanter IV with pv1 slightly thickened; femur I with ad3 slightly thickened, femur II with av somewhat spine-like and al2 very short, slightly thickened; femur IV with pd spinelike, ad2 slightly thickened, and pl short and thin; genu II with av short and spine-like, and genua III-IV with ventrals slightly thickened; tibia II with av1 spine-like, pv1 thickened; tibia III and IV with pv spine-like, av slightly thickened; pl also spine-like on tibia IV; tarsus II with av1 2, md, mv, and pv1 2 spine-like; tarsus III with md and mv spine-like, and av1 2, pv1 2 slightly thickened; tarsus IV with pl2 slightly thickened, mv, av2 and pv2 thickened, and pd2 and pd3 slender and elongate with pd2 longer than half the length of tarsus. Coxa I bearing two gland pores (gc) (Fig. 14). Material examined. Holotype: female southern Iran, Kerman Province, Baft County (28 39' 46" N; 56 45' 37" E), altitude 1044 m above sea level, from soil and litter at an alfalfa farm, 2 April 2012, coll. A. Rajaei, deposited in ACISTE. One paratype female with same collection data, deposited in ACISTE; another paratype female with same collection data, deposited in CNC. Etymology. The species is named in honour of the famous Persian poet, Khajooi-e Kermani. Remarks. The new species can be placed in the similisetae species group (sensu Karg, 1979) based on its short peritremes reaching only the mid-level of coxae II, and differs from other species of the group by the shape of the dorsal shield, which is clearly widest at the level of setae r3 and tapers posteriorly. This shape is reminiscent of the G. angusta species group, but differs from most members of that group by its dorsal shield with almost parallel sides in the opisthonotal region (from S1 to S4). The species most similar to G. khajooii is G. zhoumanshuae (Ma, 1997), which, justifiably, was classified in the angusta species group by Nemati & Kavianpour (2013). In addition to the very similar shape of their dorsal shield, G. zhoumanshuae and G. khajooi both have peritremes shortened anteriorly, ending before the anterior margin of coxae II, seven opisthogastric setae (six in G. zhoumanshuae, but JV5 may have been illustrated dorsally), three dorsomarginal (R) setae (four in G. zhoumanshuae, perhaps including JV5 dorsally), and have a cheliceral fixed digit with a serrated row of small teeth proximally to the pilus dentilis (based on figures in Ma, 1997). Gaeolaelaps khajooii differs from it at least by having 39 pairs of setae on the dorsal shield, including Px2 3, which are absent in G. zhoumanshuae. The new species also resembles Hypoaspis (sensu lato) atomarius Berlese, 1917 (sensu Van Aswegen & Loots, 1970), which has a similar dorsal shield albeit posteriorly wider, but it can be easily distinguished from H. atomarius by having one ventral setae on genu IV (two ventrals in G. atomarius) and 39 setae on dorsal shield (38 in G. atomarius, with z3 absent). The two minute projections on the posterior margin of the sternal shield are unusual, but also occur in other Gaeolaelaps species, including G. jondishapouri, G. nolli (Karg, 1962), G. praesternalis (Willmann, 1949) and G. farajii, and an undescribed species that have dorsal shield shaped similarly to G. khajooii. It is possible that these minute projections represent the vestiges of gland pores gv1. Gaeolaelaps ahangarani Kazemi & Beaulieu sp. nov. (Figs 29 40) Diagnosis (based on adult female). Dorsal shield suboval, reticulated throughout, covering almost all dorsal idiosoma, leaving exposed a narrow lateral band of soft cuticle which bears four pairs of marginal setae (R1 R2, R4 5); shield with 37 pairs of short, needle-like dorsal setae, setae Px2 3 and unpaired setae Jx absent, with 21 pairs of pore-like structures, including six pairs of gland pores (gd2 and gd6 present). Sternal shield longer than wide (length/width ratio 1.35), reticulate throughout except for a narrow smooth area posteriorly; anterolateral arms of shield broadly fused to endopodals between coxae I II, and posterior margin of shield slightly convex. Epigynal shield tongue-shaped, only slightly widened posteriorly, with eight cells surrounded by a Λ-shaped line, with cell borders sinuous. Post-stigmatic region of peritrematal shield short, extending slightly beyond level of mid-coxa IV. Soft opisthogastric cuticle with ten pairs of short setae, with alveoli surrounded by relatively thick sclerotised rings. Anal shield somewhat pear-shaped, broadly rounded anteriorly; anal opening almost entirely on 514 Zootaxa 3861 (6) 2014 Magnolia Press KAZEMI ET AL.